| China Geological Survey Chinese Academy of Geological Sciences | Host |
| 科学出版社 | Publish |
| Citation: |
PENG Yinbiao, YU Shengyao, ZHANG Jianxin, LI Sanzhong, SUN Deyou. 2018. Timing of Early Paleozoic oceanic crust subduction in North Altun: Evidence from plagiogranite and granodiorite[J]. Geology in China, 45(2): 334-350. doi: 10.12029/gc20180209
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Timing of Early Paleozoic oceanic crust subduction in North Altun: Evidence from plagiogranite and granodiorite
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Abstract
The granitic rocks that were formed from ophiolite or intruded into the ophiolites are important for the precise dating of ophiolites, and some of them can be the powerful evidence for constraining the timing of subduction. Based on detailed studies of field geological background and petrographical features, the authors conducted analysis of whole-rock major, trace and rare earth elements and zircon U-Pb ages as well as Lu-Hf isotopes for the plagiogranite and granodiorite. The weighted mean ages of plagiogranite and granodiorite from Hongliugou-Lapeiquan ophiolite in North Altun Mountains determined by LA-ICP-MS UPb method are 501±3 Ma and 496±2 Ma, respectively, suggesting that the subduction timing of the northern Altun Ocean might have started in the mid-Cambrian or earlier. The zircons from plagiogranite and granodiorite exhibit positive εHf (t) values of 1.6-5.6 and 2.7-6.9, separately, implying that the plagiogranites and granodiorites were all derived from the depleted mantle. Geochemical analysis indicates that the plagiogranites are characterized by high SiO2, high Sr, low Y and corresponding high Sr/Y, which are similar to features of adakitic rocks, suggesting that they resulted from the small proportion of partial melting of metabasites during the hot oceanic subduction to the depth of 40-50 km, belonging to the amphibolite facies. The granodiorite belongs to the series of high-Na calc-alkaline rocks, and may represent the product of mafic rocks remelting from the lower crustal in an island arc setting. The geochronological analysis indicates that the north Altun Ocean might have experienced both northward and southward subductions, and the northward subduction of the northern Altun Ocean may be slightly earlier than the southward subduction. The comparative study of the subduction time between the northern Altun and northern Qilian shows that the northern Altun Early Paleozoic suture zone is the extension of the North Qilian Early Paleozoic suture zone.
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Keywords:
- North Altun area /
- subduction timing /
- plagiogranite /
- granodiorite /
- early Paleozoic
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PENG Yinbiao, YU Shengyao, ZHANG Jianxin, LI Sanzhong, SUN Deyou. 2018. Timing of Early Paleozoic oceanic crust subduction in North Altun: Evidence from plagiogranite and granodiorite[J]. Geology in China, 45(2): 334-350. doi: 10.12029/gc20180209
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Figure 1.
Geological sketch map of North Altun area and sampling sites
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Figure 2.
Outcrops and microphotographs of plagiogranite and granodiorite in North Altun area
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Figure 3.
LA-ICP-MS U-Pb concordia diagrams and CL images of zircons from plagiogranite(AQ11-11-1.1) and granodiorite (AQ11-7-3.4)in North Altun area
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Figure 4.
Zircon t-εHf (t) diagram of plagiogranite in North Altun area
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Figure 5.
K2O/Na2O versus SiO2 diagram (a) and K2O versus SiO2 diagram (b) of plagiogranite and granodiorite in North Altun area
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Figure 6.
A/CNK versus A/NK diagram (after Maniar & Piccoli, 1989 of plagiogranite and granodiorite in North Altun area
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Figure 7.
Chondrite-normalized REE patterns (a) and primitive mantle-normalized trace element (b) diagrams for plagiogranite and granodiorite in North Altun area
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Figure 8.
Diagrams of Sr/Y-Y (a) and (La/Yb)N-(Yb)N for plagiogranite and granodiorite in North Altun area (b) (after Defant and Xu, 2002; Defant and Drummond, 1990)
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Figure 9.
Diagram of MgO-SiO2 for plagiogranite and granodiorite in North Altun area
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Figure 10.
Diagenetic setting diagram of plagiogranite and granodiorite in North Altun area according to their trace element values (after Pearce et al., 1984)